/**
 * Pretty print data structures
 *
 * Compiler implementation of the
 * $(LINK2 https://www.dlang.org, D programming language).
 *
 * Copyright:   Copyright (C) 1985-1998 by Symantec
 *              Copyright (C) 2000-2024 by The D Language Foundation, All Rights Reserved
 * Authors:     $(LINK2 https://www.digitalmars.com, Walter Bright)
 * License:     $(LINK2 https://www.boost.org/LICENSE_1_0.txt, Boost License 1.0)
 * Source:      $(LINK2 https://github.com/dlang/dmd/blob/master/src/dmd/backend/debug.c, backend/debugprint.d)
 * Coverage:    https://codecov.io/gh/dlang/dmd/src/master/src/dmd/backend/debug.c
 */

module dmd.backend.debugprint;

import core.stdc.stdio;
import core.stdc.stdlib;
import core.stdc.string;

import dmd.backend.cdef;
import dmd.backend.cc;
import dmd.backend.el;
import dmd.backend.global;
import dmd.backend.code;
import dmd.backend.code_x86;
import dmd.backend.goh;
import dmd.backend.oper;
import dmd.backend.symtab;
import dmd.backend.ty;
import dmd.backend.type;

import dmd.backend.dlist;
import dmd.backend.dvec;


nothrow:
@safe:

@trusted
void ferr(const(char)* p) { printf("%s", p); }

/*******************************
 * Write out storage class.
 */

@trusted
const(char)* class_str(SC c)
{
    __gshared const char[10][SCMAX] sc =
    [
        "unde",
        "auto",
        "static",
        "thread",
        "extern",
        "register",
        "pseudo",
        "global",
        "comdat",
        "parameter",
        "regpar",
        "fastpar",
        "shadowreg",
        "typedef",
        "explicit",
        "mutable",
        "label",
        "struct",
        "enum",
        "field",
        "const",
        "member",
        "anon",
        "inline",
        "sinline",
        "einline",
        "overload",
        "friend",
        "virtual",
        "locstat",
        "template",
        "functempl",
        "ftexpspec",
        "linkage",
        "public",
        "comdef",
        "bprel",
        "namespace",
        "alias",
        "funcalias",
        "memalias",
        "stack",
        "adl",
    ];
    __gshared char[9 + 3] buffer;

    static assert(sc.length == SCMAX);
    if (cast(uint) c < SCMAX)
        snprintf(buffer.ptr,buffer.length,"SC%s",sc[c].ptr);
    else
        snprintf(buffer.ptr,buffer.length,"SC%u",cast(uint)c);
    assert(strlen(buffer.ptr) < buffer.length);
    return buffer.ptr;
}

/***************************
 * Convert OPER to string.
 * Params:
 *      oper = operator number
 * Returns:
 *      pointer to string
 */

const(char)* oper_str(uint oper) pure
{
    assert(oper < OPMAX);
    return &debtab[oper][0];
}

/*******************************
 * Convert tym_t to string.
 * Params:
 *      ty = type number
 * Returns:
 *      pointer to malloc'd string
 */
@trusted
const(char)* tym_str(tym_t ty)
{
    enum MAX = 100;
    __gshared char[MAX + 1] buf;

    char* pstart = &buf[0];
    char* p = pstart;
    *p = 0;
    if (ty & mTYnear)
        strcat(p, "mTYnear|");
    if (ty & mTYfar)
        strcat(p, "mTYfar|");
    if (ty & mTYcs)
        strcat(p, "mTYcs|");
    if (ty & mTYconst)
        strcat(p, "mTYconst|");
    if (ty & mTYvolatile)
        strcat(p, "mTYvolatile|");
    if (ty & mTYshared)
        strcat(p, "mTYshared|");
    if (ty & mTYxmmgpr)
        strcat(p, "mTYxmmgpr|");
    if (ty & mTYgprxmm)
        strcat(p, "mTYgprxmm|");
    const tyb = tybasic(ty);
    if (tyb >= TYMAX)
    {
        printf("TY %x\n",cast(int)ty);
        assert(0);
    }
    strcat(p, "TY");
    strcat(p, tystring[tyb]);
    assert(strlen(p) <= MAX);
    return strdup(p);
}

/*******************************
 * Convert BC to string.
 * Params:
 *      bc = block exit code
 * Returns:
 *      pointer to string
 */
@trusted
const(char)* bc_str(uint bc)
{
    __gshared const char[9][BCMAX] bcs =
        ["BCunde  ","BCgoto  ","BCtrue  ","BCret   ","BCretexp",
         "BCexit  ","BCasm   ","BCswitch","BCifthen","BCjmptab",
         "BCtry   ","BCcatch ","BCjump  ",
         "BC_try  ","BC_filte","BC_final","BC_ret  ","BC_excep",
         "BCjcatch","BC_lpad ",
        ];

    return bcs[bc].ptr;
}

/************************
 * Write arglst
 */

@trusted
void WRarglst(list_t a)
{ int n = 1;

  if (!a) printf("0 args\n");
  while (a)
  {     const(char)* c = cast(const(char)*)list_ptr(a);
        printf("arg %d: '%s'\n", n, c ? c : "NULL");
        a = a.next;
        n++;
  }
}

/***************************
 * Write out equation elem.
 */

@trusted
void WReqn(elem *e)
{ __gshared int nest;

  if (!e)
        return;
  if (OTunary(e.Eoper))
  {
        ferr(oper_str(e.Eoper));
        ferr(" ");
        if (OTbinary(e.EV.E1.Eoper))
        {       nest++;
                ferr("(");
                WReqn(e.EV.E1);
                ferr(")");
                nest--;
        }
        else
                WReqn(e.EV.E1);
  }
  else if (e.Eoper == OPcomma && !nest)
  {     WReqn(e.EV.E1);
        printf(";\n\t");
        WReqn(e.EV.E2);
  }
  else if (OTbinary(e.Eoper))
  {
        if (OTbinary(e.EV.E1.Eoper))
        {       nest++;
                ferr("(");
                WReqn(e.EV.E1);
                ferr(")");
                nest--;
        }
        else
                WReqn(e.EV.E1);
        ferr(" ");
        ferr(oper_str(e.Eoper));
        ferr(" ");
        if (e.Eoper == OPstreq)
            printf("%d", cast(int)type_size(e.ET));
        ferr(" ");
        if (OTbinary(e.EV.E2.Eoper))
        {       nest++;
                ferr("(");
                WReqn(e.EV.E2);
                ferr(")");
                nest--;
        }
        else
                WReqn(e.EV.E2);
  }
  else
  {
        switch (e.Eoper)
        {   case OPconst:
                elem_print_const(e);
                break;
            case OPrelconst:
                ferr("#");
                goto case OPvar;

            case OPvar:
                printf("%s",e.EV.Vsym.Sident.ptr);
                if (e.EV.Vsym.Ssymnum != SYMIDX.max)
                    printf("(%d)", cast(int) e.EV.Vsym.Ssymnum);
                if (e.EV.Voffset != 0)
                {
                    if (e.EV.Voffset.sizeof == 8)
                        printf(".x%llx", cast(ulong)e.EV.Voffset);
                    else
                        printf(".%d",cast(int)e.EV.Voffset);
                }
                break;
            case OPasm:
            case OPstring:
                printf("\"%s\"",e.EV.Vstring);
                if (e.EV.Voffset)
                    printf("+%lld",cast(long)e.EV.Voffset);
                break;
            case OPmark:
            case OPgot:
            case OPframeptr:
            case OPhalt:
            case OPdctor:
            case OPddtor:
                ferr(oper_str(e.Eoper));
                ferr(" ");
                break;
            case OPstrthis:
                break;
            default:
                ferr(oper_str(e.Eoper));
                assert(0);
        }
  }
}

@trusted
void WRblocklist(list_t bl)
{
    foreach (bl2; ListRange(bl))
    {
        block *b = list_block(bl2);

        if (b && b.Bweight)
            printf("B%d (%p) ",b.Bdfoidx,b);
        else
            printf("%p ",b);
    }
    ferr("\n");
}

@trusted
void WRdefnod()
{ int i;

  for (i = 0; i < go.defnod.length; i++)
  {     printf("defnod[%d] in B%d = (", go.defnod[i].DNblock.Bdfoidx, i);
        WReqn(go.defnod[i].DNelem);
        printf(");\n");
  }
}

@trusted
void WRFL(FL fl)
{
    __gshared const(char)[7][FLMAX] fls =
    [    "unde  ","const ","oper  ","func  ","data  ",
         "reg   ",
         "pseudo",
         "auto  ","fast  ","para  ","extrn ",
         "code  ","block ","udata ","cs    ","swit  ",
         "fltrg ","offst ","datsg ",
         "ctor  ","dtor  ","regsav","asm   ",
         "ndp   ",
         "farda ","csdat ",
         "local ","tlsdat",
         "bprel ","frameh","blocko","alloca",
         "stack ","dsym  ",
         "got   ","gotoff",
         "funcar",
    ];

    if (cast(uint)fl >= FLMAX)
        printf("FL%d",fl);
    else
      printf("FL%s",fls[fl].ptr);
}

/***********************
 * Write out block.
 */

@trusted
void WRblock(block *b)
{
    if (OPTIMIZER)
    {
        if (b && b.Bweight)
                printf("B%d: (%p), weight=%d",b.Bdfoidx,b,b.Bweight);
        else
                printf("block %p",b);
        if (!b)
        {       ferr("\n");
                return;
        }
        printf(" flags=x%x weight=%d",b.Bflags,b.Bweight);
        //printf("\tfile %p, line %d",b.Bfilptr,b.Blinnum);
        printf(" %s Btry=%p Bindex=%d",bc_str(b.BC),b.Btry,b.Bindex);
        if (b.BC == BCtry)
            printf(" catchvar = %p",b.catchvar);
        printf("\n");
        printf("\tBpred: "); WRblocklist(b.Bpred);
        printf("\tBsucc: "); WRblocklist(b.Bsucc);
        if (b.Belem)
        {       if (debugf)                     /* if full output       */
                        elem_print(b.Belem);
                else
                {       ferr("\t");
                        WReqn(b.Belem);
                        printf(";\n");
                }
        }
        if (b.Bcode)
            b.Bcode.print();
        ferr("\n");
    }
    else
    {
        assert(b);
        printf("%2d: %s", b.Bnumber, bc_str(b.BC));
        if (b.Btry)
            printf(" Btry=B%d",b.Btry ? b.Btry.Bnumber : 0);
        if (b.Bindex)
            printf(" Bindex=%d",b.Bindex);
        if (b.BC == BC_finally)
            printf(" b_ret=B%d", b.b_ret ? b.b_ret.Bnumber : 0);
        if (b.Bsrcpos.Sfilename)
            printf(" %s(%u)", b.Bsrcpos.Sfilename, b.Bsrcpos.Slinnum);
        printf("\n");
        if (b.Belem)
        {
            if (debugf)
                elem_print(b.Belem);
            else
            {
                ferr("\t");
                WReqn(b.Belem);
                printf(";\n");
            }
        }
        if (b.Bpred)
        {
            printf("\tBpred:");
            foreach (bl; ListRange(b.Bpred))
                printf(" B%d",list_block(bl).Bnumber);
            printf("\n");
        }

        switch (b.BC)
        {
            case BCswitch:
                printf("\tncases = %d\n", cast(int)b.Bswitch.length);
                list_t bl = b.Bsucc;
                printf("\tdefault: B%d\n",list_block(bl) ? list_block(bl).Bnumber : 0);
                foreach (val; b.Bswitch)
                {
                    bl = list_next(bl);
                    printf("\tcase %lld: B%d\n", cast(long)val, list_block(bl).Bnumber);
                }
                break;

            case BCiftrue:
            case BCgoto:
            case BCasm:
            case BCtry:
            case BCcatch:
            case BCjcatch:
            case BC_try:
            case BC_filter:
            case BC_finally:
            case BC_lpad:
            case BC_ret:
            case BC_except:
                if (list_t bl = b.Bsucc)
                {
                    printf("\tBsucc:");
                    for ( ; bl; bl = list_next(bl))
                        printf(" B%d",list_block(bl).Bnumber);
                    printf("\n");
                }
                break;

            case BCret:
            case BCretexp:
            case BCexit:
                break;

            default:
                printf("bc = %d\n", b.BC);
                assert(0);
        }
    }
}

/*****************************
 * Number the blocks starting at 1.
 * So much more convenient than pointer values.
 */
void numberBlocks(block *startblock)
{
    uint number = 0;
    for (block *b = startblock; b; b = b.Bnext)
        b.Bnumber = ++number;
}

/**************************************
 * Print out the intermediate code for a function.
 * Params:
 *      msg = label for the print
 *      sfunc = function to print
 *      startblock = intermediate code
 */
@trusted
void WRfunc(const char* msg, Symbol* sfunc, block* startblock)
{
    printf("............%s...%s().............\n", msg, sfunc.Sident.ptr);
    numberBlocks(startblock);
    for (block *b = startblock; b; b = b.Bnext)
        WRblock(b);
}
